the future digital-living - skmm.gov.my … · source: population and housing census of malaysia,...
TRANSCRIPT
PRESENTATION LAYOUT
Brief History of Fiber Optics
Introduction
Background & Market Analysis
Potential Benefits
Conclusion
BRIEF HISTORY OF FIBER OPTICS
1840s : Swiss physicist
Daniel Colladon discovered
he could shine light along
water pipe.
1870s : Irish physicist John
Tyndall demonstrated the
idea of curving the light
round the water path release
from a container. This idea
of “bending light” is exactly
what happens in fiber optics.
PRESENTATION LAYOUT
Executive Summary
Introduction
Background & Market Analysis
Potential Benefits
Conclusion
WHAT IS FTTX?
FTTH: fiber to the home
FTTP: fiber to the premises
FTTC: fiber to the curb
FTTN: Fiber to the node
FTTx: for those who can’t decide what to call it or are referring to all varieties!
Adapted from FOA5
“Fibre to the X (FTTx)” is a generic term for any broadband network architecture that uses fibre optic to replace all or part of the usual metal local loop used for last mile.
FIBRE-TO-THE-HOME (FTTH) DEFINITION
“Fibre to the Home” is defined as a communications architecture in
which the final connection into the subscriber’s home or place of
business is Optical Fibre.
The fiber optic communications path is terminated on the premises for
the purpose of carrying communications to a SINGLE subscriber.
It is implicit that in order to be classified as FTTH, the access fibre
must cross the subscriber’s premise boundary and terminate
inside the living or office unit, or
on an external wall of the subscriber’s premises, or
directly adjacent to (no more than 2m from) an external wall of the subscriber’s
premises.
GREENFIELD
High rise
Landed
High rise
Landed
BROWNFIELD
Residential
Commercial
Residential
Commercial
Residential
Commercial
Residential
Commercial
FTTH
FTTH and ETTH*
FTTH
FTTH
FTTH
FTTH
FTTB + VDSL2 and ETTH*
FTTB + VDSL2
HSBB ACCESS WILL VARY ACCORDING TO TYPE OF
PROPERTIES
* ETTH : Ethernet to the Home (Point-to-Point Ethernet)
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PRESENTATION LAYOUT
Executive Summary
Introduction
Background & Market Analysis
Potential Benefits
Conclusion
MARKET SUMMARY
MALAYSIAN PROPERTY MARKET INMATURATION STAGE-Growing maturity in terms ofquality and range of products, modern technology, rapiddevelopment & scarcity of prime land led developers tobuild condominiums and develop large townships.
Although houses priced below RM200k continued to bethe most sought after; the is a continued popularity forhouses priced beyond RM500k in prime location
Current market trend focuses housing developmentwith Lifestyle Concept especially on security. Also thereis a growing and increasing interest in “GreenDevelopments”
*Source from REHDA Nov 2009
REAL ESTATE & HOUSING INDUSTRY IN
MALAYSIA
Strong underlying demand with
continuous population growth
2.1% (as of Year 2009)
Easy access to financing through
various home loan packages
Green Building Incentive
Developers adopting creative
marketing strategies
Young Population
*Source from FTTHCAP
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REAL ESTATE DEVELOPER’S SITE IN TAIWAN
Termination Racks at MDF (~1000 units)
Termination Racks at MDF
High density Luxury Condo
Termination point at Closet
PRESENTATION LAYOUT
Executive Summary
Introduction
Background & Market Analysis
Potential Benefits
Conclusion
DIRECT POTENTIAL BENEFITS/VALUE ADDS
FTTHREADY
Online/eBuilding Management System:
Online Management fee payment
Online facility booking (e.g. Squash/tennis court)
Online grocery ordering plus delivery
Online laundry services + pickup/delivery
Online announcements & advertising
High Definition CCTV system with over fibre HD CCTV system for tenants to identify visitors
and also for building security
Wireless internet access @ public locations e-living with connectivity throughout the site
High Speed Broadband via FTTH within the home with ISP/Telco
HD Digital Home capability
Interior Design + Smart Home
@
eSchool
Gaming
INDIRECT POTENTIAL BENEFITS/VALUE ADDS
Green Building due to: Usage of fibre optic cables significantly
reduces the carbon footprint as compared to
the usage of copper cables
The amount of energy to produce 1km of
copper UTP cable (26 AWG) is between 130
~ 250 times higher than the amount of
energy to produce 1km of fiber.
The amount of power needed to deliver the
same amount of bandwidth over the same
distance is also significantly less with the
fiber optical cables because of the reduction
of intermediate active equipments and also
the cooling system (air conditioning) needed